Article forming apparatus



June 17, 1947. R. T. ADAMS- 'ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 ll Sheets$heet l QWN ' INVENTOEH By E. Z'flanns- 2 HTTOEME) June 17, 1947. R. T. ADAMS ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 ll Sheets-Sheet 2 INVENTOIE E. 7740191545 NAN TOE/YE) j June 17, 1947. R. T. ADAMS AR'fICLE FORMING APPARATUS Filed Jan. 11, 1945 ll Sheets-Sheet 3 ANY lM/ENTO/E 1?. 7.3904043 HTTOIPA/EY June 17, 1947. R. T. ADAMS ARTI CLE FORMING APPARATUS Filed Jan. 11, 1945 11 Sheets-Sheet 4 INVENTOR R. T. ADAMS ARTICLE FORMING APPARATUS June 17, 1947.

- 11 Sheet s-Sheet 5 Filed Jan. 11', 1945 m n 1m llllimf' v flTTOE/VEY June 17, 1947. R. T. ADAMS ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 .11 Sheets-Sheet 6 IVVENTOE f A z Arron/fr June 17, 1947. R. T. ADAMS ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 ll Sheets-Sheet '7 INVENTOR June 17, 1947. R. T. ADAMS ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 11 Sheets-Sheet 8 June 17, 1947. R. T. ADAMS I ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 .11 Sheets-Sheet 10 I U H l l ml l -I H HWI D I I I I I H .H H

Ill I I l I I IN VEN 70/? K THO/M45 T OIPA/EY June 17, 1947. DA

ARTICLE FORMING APPARATUS Filed Jan. 11, 1945 ll Sheets-Sheet ll m3 QQ \wq w NQ G m mm- NEW \N I\ Q I N INVENTOE Mwm Patented June 17, 1947 NI'T ED YSTAT ES PAT ENT 1o? FF] c E 223,422,282 AittrioLE FORMING KfiARKTUS Rol irt Adams Baltimore, Md., assignor to Westrii'EltTctri compaii mcorporated, New York, N. Y.,- a corporation 'of New York 7 Application Januar 11, 19 45,Siial Fl (572,413

17 claims.

1 This invention relates to article formingapparatus and more particiilarly toan apparatus 'for forming electrical eonnecti'ng cords.

It is an object of the present invention to provide a simple and efficient r'riechanis'i'n for rapidly forming articles, I

In accordance with one embodiment of the invention, connecting cords for use in the telephone and like industries are completely formed in the apparatus from cordagejhaving the individual conductors comprising the (Sore thereof thrown outthrough the braided cover at'r'egular intervals. The Cordage is fed b'ya distributor mechanism opera'.tin', in timed relationto a rotatable turret in such manner that the distributin mechanism wraps the Cordage around pulleys mounted on the turretand pulleys on'm'ovable plates'c'arriedby the turret and between clamping devices which'grip the cordtightly during the movement of the movable plates "whereby the braided covering on the cordage is broken at the point where the loops'ektend, out through the cover. The individual conductors are then arranged'on suitable spring pressed pins 'on' the plates, which hold them under tension and properly locate the conductors and'ends of the braid covering in position to have temmags attached to the conductors and to have staybands and S-hooks' attached to the ends of the'brai'de'd covering by a punch press mechanism. In the punch press, the terminal members are attached to the individual conductors and are severed from a'continiious stripof them, whereupon the individual conductors are cut against the surfaces of the terminals attached to the condudtbrs to completely forma 6ord "for' each o eration of the punch'pres's mechanism. h I

A complete understanding of the'inv'ention may be had by reference to the following detailed description'when considered in conjunction with the accompanying drawingsfwhefein Fig. l is a; front'elevational view of arr-apparatus embodying the invention and showing the punch press and distributor, as well as the turret in elevation;

Fig.2 is a plan'view of the apparatus shown in Fig. I and showing the drive mechanism for the punch press, turret and distributor I Fig. 3 is a fragmentary horizontal setitional View taken substantially along the line 3 -3 of- Fig. 1 in the direction of the arrows and showin details of'thetulret on a larger Scale than they are shown in'Fig; 1-; t

Fig. 41s a fragmentary vertical sectional' view taken siibstafitially aloh-g' the line" i -4 Of Fi'gf 2 in "the direction of the arrows and showing portiqns of the apparatusmounted on the turret;

"Fig-.fiis a. fragmentary verticalsectional View taken on the line 5-5 of Fig.3 in the direction of the arrows showing some details of a carriage mechanism mounted on the't'urret Fig. 6 is a fragmentary detail view showih apdrtionof the distributing mechanism in front elevation and a portion o f 'thefturret in section;

Fig. '7 is a fragin'eritary sectional View taken through the distributing mechanism and showin portions 'theredf on a slightly larger scale than they are'shown in Fig. 3; v p I V g Fi .8 is a fragmentary-sectional View showing details of construction of a' solenoid actuated clamp mounted on the distributor for clamping the cord after a predetermined-length thereof has beenfed by the distributor mechanism; I

Fig. :9 is an irregular sectional view taken substantially along theline 9-9 of -Fig. Tin the direction or thearrows showing portions of the distributor mechanism in elevation and other portions thereof in se'ction V Fig. 10 is a vertical seetiona-l view taken stitstant'ia'lly along the line iii-Jo df Fig.9 the directio'nof the arrows showing cam tracks which control the movementsof the distributor'mechi mz. ,t c a.

Fig; 11 is an enlarged fragmentary front-elevaie-renew of a portiono'f the turret showin h'emovable plates which supports one X52116 is, in turn, supported on a 3 9 c i ii c t Fig; a view Fig 11, butfshowmg the cord 'aift'er th braided covering thereon has heehhr'oken and the individual conductors haveheen aligned upon the pins which will hold them irrposition to be operated upon in the punch press mechanism;

Figs--13 and 14 are fragmentary plan sectional view'staken sii bs'tantial'ly' along the lines I3'|3 and *I'4'-I4*of Fig. 4'inthe direction of the arrows and showing details of the'meohanism for feeding; and forming the terminals and the Sehooks;

=Figs.-15-a-nd 16 are irregular enlarged fragni r v rt c se i al vie taken S sta tially along the line [5-45 of Fig. 2 in the directionof the arrows afia's'howing the punch press dies inoperative and inoperative pb'smons, respectively; v I V t Fig; I? is" a 'face View "of the movable head of the" press mechanismshowing the alignment of the-1'85 oksstay bands and terminals asthfeyare fed to r'respebtive forming 091s; Fig- 18 is a "ttletail 'Vf'W on" an eniargewscaie tion of the arrows showing the resilient mounting of the plate which holds the individual conductors and the cordage in position to have the various parts attached to them;

Figs. 21 and 22, when placed side by side with Fig. 22 to the right of Fig. 21, comprise a diegrammatic developed View of the turret showing the various mechanisms thereon in their operated condition around the turret; and

Fig. 23 is a fragmentary view in perspective showing details of the stationary tools in the punch press which are employed in attaching the terminals to the individual conductors and cutting the conductors.

The apparatus as illustrated in the drawings is designed to have cordage 30, as shown most clearly in Fig. 11, fed to it with individually insulated conductors 3|, 32 and 33 looped out through the braided covering on the cordage at predetermined intervals. In the operation of the apparatus, the braided covering on the cordage is broken apart at the points where the individually insulated conductors 3|, 32 and 33 are looped. out

through the braided coveringand two terminals 34 (Fig. 18) are attached to each conductor in the area between the broken ends of the covering. In addition, a stay band 35 and an S-hook 36 are applied to the outside of the braided covering on the cordage 30 just back of the point where the covering is broken to facilitate the mounting of the cords thus formed in electrical apparatus. A

short section of each conductor 3|, 32 and 33 is cut out between the terminals 34 whereby, in each cycle of the apparatus, a single double ended cord, havinga stay band 35 at one end, an S-hook 36 at the other end and the three conductors with terminals 34 attached to them, is formed.

The apparatus is mounted upon a main base member 40 (Figs. 1 and 2) from which there extends a pedestal 4| for supporting a turret, designated generally by the numeral 42. The pedestal 4| is formed integrally with a press supporting bracket 43, which supports a horizontal type punch press, designated generally by the numeral 44. Mounted on the main base member 40 is a driving motor 45 adapted to drive the punch press 44 through a driving element 46, as shown in Fig. 1. In addition to the motor 45, the base 40 supports a drive motor 41 (Fig. 2) for driving the turret 42 and a, distributor mechanism, designated generally by the numeral 48. A gear reduction unit 49 (Fig. 1), driven directly by the drive motor 41, drives a turret-driving shaft 50 and a distributor-driving shaft 5| at fixed speeds. A sprocket 52, mounted on the distributor-driving shaft 5|, is connected, by means of a chain 53, to drive a sprocket 54 mounted upon a distributor shaft, designated generally by the numeral 55. The distributor shaft 55 is journalled in a shoulder 56 (.Fig. 1) formed on the pedestal 4| and in a tie plate 57, which is;in tu'rn,'fiXed to a stationary shaft 58 mounted in the pedestal 4| Thedistributor shaft 55 (Figs. 6, l and 9) ;has a threaded portion 59 for guiding and driving a 4 distributor bracket 60. 60 is made in two parts, which, as seen most clearly in Fig. '7, are clamped together to surround the threaded portion 59 of the shaft 55. One of the portions 6| of the bracket 60 has a plate 62 mounted upon it, which carries a stud shaft 63 for rotatably supporting a drum 64. The plate 62 also supports a bracket 65 (Fig. 6), carrying a guide funnel 66, which serves to guide cord'age 30 from a reel thereof (not shown) to the apparatus. The guide funnel 66 has an extending portion 61, which is slightly resilient, for clamping the cordage 30 down onto the upper surface of the bracket 65 to guide the cordage under a switch lever 68 of a switch 69. switch lever 68 is so adjusted that when the extending loops of individually insulated conductors 3|, 32 and 33 pass under the lever 68,

the lever will be moved sufiiciently to close a switch 69.

Encircling the drum 64 is a, spiral guide 80 (Figs. 6, '7 and 9) having a spiralled passage 8| formed in it for guidin the 'cordage 30 progressively from the outer or forward edge of the on a. bracket 90 and is adapted, upon energization of the solenoid 86, to compress a spring 9|,which normally urges the lever 89,upwardly (Fig. 8) and to clamp the cordage 30 against a'ledge 92 formed on the plate 62. The purpose of this mechanism will become apparent as the description progresses.

The second portion of the distributor bracket 60, designated by the numeral 93, cooperates'with the portion 6| to form a bearing sleeve encircling the threaded portion 59 of the distributor shaft 55. This portion 93 of the distributor bracket 60 has a key 94 mounted in it which extends into the threads of the threaded portion 59 and thus, when rotation is imparted to the distributor shaft 55, the distributor bracket 60 will travel alternately upwardly and downwardly on the shaft-[55 due to the configuration of the threads in'the threaded portion 59, as shown most clearly in Fig. 9. The portion 93 of the bracket 60 has an arm 95 formed integrally therewith'which carries a cam roller 96 at its free end. The cam roller 96 is urged to bear against a camtrack, designated generally by the numeral 91, by a compression spring 98,.which is fixedto the arm 95 and to a cam lever 99'carrying acam roller I00 7 against the opposite side of the track 91 and pivoted on a pivot pin |0| fixed to the arm 95.

The cam track '91, as shown. most clearlyin Figs. 9 and 10, is mountedupon a plate I62 attached to the tie plate 5'! and to the shoulder. 56

members I04 and I05 are urged 'to engage the The distributor bracket The I The'main fixed cam memends ofthe sloping sections III-Sand H at the point where they merge with the central straight portion I58 and thus the cam roller 95 will travel in'the'pat'h'indi-cated by the dot and dash line I I I when the distributor bracket, 55 is reciprocatedby the distributor shaft 55. The pivotalll mounted. cam members I54 and I are urged to the left (Fig. lOlby contractile springs [I2 and I I3; respectively, which are attached to the plate I02 and to pins I I4 and H5 fixed to the cam members. I104 and I 55 and extending through slots lfli and I- H in the plate I02.

" From the foregoing, it is believed to be apparent that when rotation is imparted to the distributor shaft '55, the distributor bracket 66- will travel up and down. on the shaft 55 and the bracket 50: will: be oscillated. adjacent to the up per and lower ends of ts travel by the cooperative action of the cam track 57 and the cam rollers 96; and I53. The purpose of this will become apparent as the description progresses.

By reference to Figs; 1' and 3, it will be noted that the. guide tube '82 is mounted to move in close proXimity to the periphery of the turret 42 and since the turret 42 rotates in timed relation to the operation of the distributor mechanism 48, the tube 82 will feed cordage 30 around sets of pulleys I25--I25, lid-426, IZ'I-IZ'I and I 28,I28; mounted upon the turret 42 (Figs. 3, 21 and 22) of whichthereare provided four sets spaced at intervals around the turret I2. Pulleys I26 and IE8 are freely rotatable on stud shafts I29 I29 fixed to the upper portion of the turret 4;, as illustrated in Fig. 5, whereas the pulleys I25 and I21 are not only freely rotatable on their shafts but are movably mounted, as will be described hereinafter.

The turret 42 (Fig. 4) comprises an upper bearing sleeve I35, which is freely rotatable about the stationary shaft 58, a bearing I3I being interposed between the shaft 53 and sleeve I35. The lower end of the sleeve I35 has a shoulder I32 formed on it which bears upon a bearing member I33 encircling the shaft 58 and positionedon the upper end of areduced portion I34- of the pedestal 4!. Attached to or formed. integrally with the sleeve I3!) is a top plate I35 f annular configuration, which extends horizontally and has depending from it an annular skirt I35,which comprises the outer surface of the turret 42. The skirt I36 in addition to being supported by the top plate I35 which extends from the sleeve I35 to the skirt, is braced by a spider I31 extending from the sleeve I35 to a point intermediate the ends of the annular skirt I36. The skirt I35 extends downwardly to a point adjacent to the shoulder 55 and has suitably attached to or formed integrally with it a support ring I38, to the under-surface of which a ring gear I39 is fixed. The ring gear I39 (Fig. 2) meshes with a spur gear let mounted upon the turret driving shaft 50. In this manner, rotation will be imparted to the turret 52 when the motor 4'! is operated. In order to hold the lower portion of the skirt I35 in its proper place during its rotation'with turret 42, the support ring I38 bears against a plurality of guide rollers- I4II4I (Fig. i) mounted upon stud shafts [42-442 disposed about the top of the base portion of the pedestal II in position to bear against the. ring.

Mounted upon-the upper surface of the re duced portion I54 (Fig. 4)'of the pedestal M is a. cam track supporting plate I43, carrying at itsjpeiiiphery a, stationary cam I44, which is;

6 adapted'to be engaged by cam rollers I-45-'I45' carried on the lower ends of cam levers HIS-I46- (Figs. 3, -4 11 and 12). The cam I 44 extends only part way around: the pedestal 4| and, where it is interrupted, will release the cam rollers I45 and permit springs MI-MT to rock'the cam levers counter-clockwise, as viewed in Figs. 11 and 12, that is, from the position shown in Fig. 12 to the position shown in Fig. 11. The levers I4.5I46 are each fixed to a stud shaft I48, mounted, as shown most. clearly in Fig. 3, in bearing I49 mounted on the skirt I56- of the turret4-2, and the lovers I45 are each interconnected with their spring I 41 by means of a lever I'EI, also attached to the shaft I43. Each ofthe-shafts I481 carries a clamping member I55 on the outside of' the turret. to cooperate with a stationary clamping member I-5;I-,-also mounted on thei'outsidev of the skirt I 35v of the turret. Also fixed to each of the shafts I45 is a lever I52; which. is interconnected by a link I53 with a lever I54. The lever I54- is, in turn, fixed to a stud. shaft I55 mounted in a bearing I55 and carrying-a clamp I5'I and a lever I 58. A spring I59: normally urges the lever I58- to rock clockwise (Figs. 11 and 12) to move the clamping member: I 51. into operative association with a stationary clamping member I55, similar to the clamping member I5I. The springs MI and I59 are attached to pins I62 extending upwardly fromthe spider I31.

Through the linkage just described and, by the action of the springs I4?! and I59; the clamping members I 55 and I5? will be rocked into cooperating relation with their associated stationary clamping members I5I. and I55 each timetheir associated cam roller I45 rolls off the upper surface of the interrupted annular cam I44, thus to clamp cordage'3fl to the skirt I35 of the turret 42. The configuration of the cooperating faces of the movable and stationary clamping members I55, I51, I51 and IBIIQis such that any downward pull on the cordage Bilwill tendto clamp the clamping members against the cordage more tightly than the springs clampthem and, therefore, the cordage will be held at spaced points so that downward movement being impartedto pulley I25 will cause the braided-covering on the cordageto be broken. Since the weakest spot in; the covering is at the point where the individually insulated conductors 3 I, 32 and 33 extend out through the braided covering, the covering on the cordage will be broken at that point if that point in the cordage is somewhere between the pulley I25 and the cooperating sets of clamping members I55 and I5! and I5! and IE5.

Inasmuchas the turret 42 and the distributing mechanismi iB are both driven from the same motor and operate in timed relation, it is possible to feed the oordage at such a rate that the point where the conductors extend through the cover-- ing will be properly positioned in the apparatus if the cordage'were formed with sufficient accuracy. However, in order to compensate for any slight irregularities in the distance between the points where the individually insulated conductors are thrown out through the braided covering o-n'th'e cordage, the distributor mechanism is provided, as described hereinbefore, with the solenoid actuated clamping device 85, which operates under control of the switch I59 to stop feeding cordage each time the extending loops of individually insulated conductors pass the switchlever 55. In addition to the provision of thismechanism, which ,cooperateswith a switch I lo -mounted upon able with respect to the turret 42.

work I83.

the tie plate 57 (Fig. 1) the pulley I27 is mounted in such manner that it may move up and down a limited amount with respect to the skirt I36 f the turret 42. The switch I70 is connectedin series with the switch 69 and is a normally closed switch which is opened and held Open by one of a plurality of plates I69 mounted. on the turret 42, for a length of time sufficient to permit the looped out conductors to be drawn past the switch lever 68. The plates I59 may be positioned on the turret in such manner that feeding of cordage will be reinitiated each time switch I70 engages a plate I89 to properly position the succeeding loops.

As stated hereinbefore, the rollers I 27 are movably mounted with respect to the turret 42 and, as shown most clearly in Figs, 3 and 6, the rollers I27 are freely rotatable on a plate I72, which is slidably mounted with respect to the turret '42. The plate I72 has a horizontally extending portion I73 provided with a suitable aperture to receive a guide pin I74, which is fixed in the top plate I35 and in the spider I37. A compression spring I75 is interposed between the undersurface of the top plate I35 and the upper surface of the horizontally extending portion I73, whereb the plate I72 is normally urged downwardly and slidable in a slot I76 formed in the skirt I 38, being held in place in the slot by retaining plates I77 and I78 fixed to the skirt I35. As previously stated, the rollers I25 are mov- These rollers are mounted upon plates I79 and the plates, as shown most clearly in Figs. 11, 12 and. 20, are each provided with four apertures I80 adjacent their corners for receiving liner pins I8I, which are suitably attached to or formed integrally with corner plates I82 attached to a rectangular frame- Surrounding the pins I8I and interposed between the inner surfaces of the plate I79 and a pocket I84 in the framework I83 are compression springs I85, which normally urge the plates I79 into engagement with the corner plates I82, as shown most clearly in Figs. 4 and 20. In this manner, the plate I79 are normall carried around the turret with their outer surfaces substantially flush with the outer surface of the corner plates I82. The rectangular framework I83, as shown most clearly in Figs. 13 and 14, has tongues I86 and I87 formed on its side extending into and slidable in grooves I88 and I89 of a car- 7 are four sets of stationary pins riage frame I30, whereby the rectangular framework I83 may be reciprocate'd vertically with respect to the carriage frame I90. The carriage frame I92 (Fig. 4) has lower and upper tongues I9I and I92 formed on its bottom and top surfaces which are arcuate in configuration to engage in arcuately cut grooves I93 and I94 formed in the support ring I38 and spider I37, respec tively, whereby the carriage frame I90 may be .moved bodily about the axis of the shaft 58 relative to the turret 42. This relative movement of the carriage frame I50 with respect to the turret 42 permits the punch press mechanism 44 to perform operations upon the cordage carried by the plate I 79 when the plateis in the punch press station and is held therein, as will be described members to the cordage and the plate is also pro-' cured to the portion I34 of the pedestal 4| and which extends all the way around the pedestal;

' As stated hereinbefore, the roller I95 is carried by the plate I79'and, when the plate I79 is carried downwardly by the rectangular framework I83 sliding with respect to the carriage frame I90, the covering on a length of Cordage which has been wrapped around the pulley I25 and which has been clamped by the clamping members I50, I5I I57 and IE0 will be broken at the point where the individually insulated conductors extend through the braid covering on the Cordage. The configuration of the interrupted cam track I 44 and the cam track I96 are such that when the framework I83 is moved downwardly, the clamping members actuated by the cam rollers I45 will be in clamping engagement with the cord and thus the braid covering on the cord will be.

This operation occurs in the first a plate II9 broken. quarter of the cycle of travel of 7 around the shaft 58.

The carriage framework I is normally urged to the position shown in Figs. 1, 11, 12, 21 and 22 by a pair of compression springs 265 and 206, which, as shown most clearly in Figs. 1, 3 and 12, are interposed between the left side of the carriage framework I00 and a block 207 fixed to the skirt I38. The springs 205 and 296 encircle arcuately shaped half-round rods 238 and 209, which are attached to the side of the carriage framework I90 and the block 287, respectively, to guide the springs when they are compressed.

Mounted upon each of the plates I79 (Fig. 12)

2I3--2I3, 2I i2l4, 2I5--2I5 and 2I8-2I-Ii. These pins extend from the plate I79 a distance such that the pins 2I3, 2M and 2I5 cooperate with pulley I25 to hold the cordage 38 in position to have a stay band 35 and an S-hook 36 attached to it by the punch press mechanism. The pins 2I-8 cooperate with a set of three stationary pins 2 I7 and. three movable pins 2I8, 2i 9 and 220 to properly position the individually insulated conductors 3|, 32 and 33 to receive the terminals 34. As shown most clearly in Figs. 11, 15 and 16, the pins 2I8; 2I9 and. 222 are mounted upon slidable blocks 227, 222 and 223, respectively, which are slidably mounted in slots 222, 225 and 226 formed in the plate I79, being held in position in the slots by a retainer plate 227 and normally'being urged to the positions shown in Fig. 11 by compression springs 228, 229 and 230. In the operation of the apparatus, after a cord has had its braid covering 7 broken due to the movement of the pulley I25 downwardly with theplate I79 while the clamps I50, I5I, I57 and I29 are clamping the cordage 30, the individual conductors SI, 32 and 33 may be placed by an operator in the position shown in Fig. 12 and, while held in that position, the

turret 42, rotating, will carry the plate I79 into the punch press position. The pins. 2I8, 2I9 and 220 extend through slot 23L 232 and 233 in the plate I79. 7 V I v In addition to the assemblage of pins on the plate I70 for properly positioning the cordagc and the conductors 3i, 92 and 3-3,, the plate I79 is provided with a pair of liner pin holes .234 and 235, which are adapted to receive liner pins 235 and 237 (Figs. 4 and 17) forming a portion of the punch press mechanism. The plate I79 has apertures 238 and 239 (Figs. 11, 15 and 16) through which stay band and S-hook forming tools, to'be described in connection with the punch press mechanism, may passin the attachment of. these viiifi' viii 1711 551 ap rttir 240,- thrbiig'h WhiCh-trinitial "fbrffiin g 'ti bls may p a's's ih-th'epurtcjn 'Dr'e'ss ljb itibn Of th'e'- tp15irt1is: Sinftie thif,- prtionof the pbr'dage which extends-across the right half of 'the piste Harm's. 12 is nott mteqon b th'e t'obls inthe pimchpress, this perti'on bf the'cdrda'ge is pushed 'lit dalignd'fgroovs 2 H Emit 2'42, whibh gre disposed tip'oh oppbsite sides tts-dpt-essitn 24a formesiihthspiate :19 at the pin't Where a portion of theinechahisrh Whih feeds strips of terminals t6 the punt-h press mechem'smtoois will rnbve in the operati'n of the mine-11' press-,- Siniflsr' greev's a re frfnecl; as shoivn at 2 4 1 and 245, to receive the edrdage when the princhpres's t'bls aredpra-ting upon pbrti'd'ns ofthein; l v

After'the braid cbvering Oh the cerd age has been broken and the c'trdtge find e'qndiietrs have been properly placed u'ponthe plate ITS; the plate will 'move into the puneh press pdrtibn of the apparat'us. As: a'plate H9" mqves into the punch press portijo n bf the apparatus-tit abutment member 260'- i s. 2; 3 and. i2) sltrried on the carri a'gefrai'ne I90, will engage s blocking lever gs I, vvhi'h' ispivdtellir' fnb'u'ht'ed on 9, pm 262 carried by th brtkt- 2153-; Whibhifi, iii tiifri, mounted. upon the pedestal 41; The lever 26] arrie's a svvitizh z e'a; writes Has an aetiiatifig-lever265px; tendiii from it in pds ition tq hie engaged bythe abutfiieht' 2605 TIie'iev'er 261' serves" to-hlbc'k fiibveihent of the earrige' frame 190-, thus to h'dld the plate IT9 in positibh'ih'th piinh p fssdiirfi the fihr atibii off'th' pil'jr'ih pressiwhich 5 ration is initiated. upone1os ire-ofth switch 264,' t fi tifijlifi wfil: 9 Wh fll will fl ifi circuit to energize a trip'soleneid 2S5; Energize;- tiOfl oflthe seli eid its w ii pgus itjto attract its core 261't0 r061; a dbg aetl ating' lever 268 tops position t0 release the piin'ch; press gluten {at driving the punch press thlrdugh one 'cyc le of ciperation. The details ft'he p ts-pres elirteh are not shewn 1 ierein since they may he of any suitable ty p which vvili eonne'et arflji Wheel 26S d rivnby th e irivmge inefit as to at eccentric}: drive shaft 210" tq drive'the sha ftflfl through t ne c'ydl. 'rnsdfive shftzw (Fig 2 i mqufitec insuitable'brifigs 21! ,thd' 2 12 servesftio atiiate' a c'fb' hezi'd actiitttin member 213,; which; iii tiirn; drives ti -press head" 278; The tress hed 21Zlis s iidlabl in 'alxitir'dfvtafi 215 am 210', wmen 'aife nidiiritd-or'i the press's'u fiitifigbiaktfl} wh'iehalse serves toj' support thebearing z1l' 212: lvmuflte a upon s'hdftZ'lQi. s tier; 2 tavmg cooperating theivvitha v is filyfdt'athl (iii an aim-or a; be llciank l vr 219, which is pivoted for oscillation on" 5, pivot pin zfifl 'c a iri'i'ed'bi 't ibk't 281; vvhih, turn, is meiintd'pri the-tress submitting bracket 43. The a-iifi 6f the hell? cretrili ievr 219; Qppos'ite to that; waits cai-ristheiblli' 2185- is intercdrinetted with the 1evr=2s| by a link ztzgwm qfi is n'o-rmsnt urged't the right (Fig. 2') a pentractile spring 283 attached to the link 282by md tis of a pifi zafi hd -td'thbfadkt 2! by I'Iizihs Of a} h'fit p' n-28 '5y abutment ztt' on' marriage frame lam-whenthe the" press" 66 Q0" thf'bugh o'ri' Complete cycle;

When the' pres's gdes thrdu'gh one complete cycle, the press head 2H=Wi1l be advanced to the left from the pesition shown in Fig. 2 and then retra'ct'ed to perform th e operati'ons incident to the attaching of terminals, an S-hook and a stay banatn' pbr'dige c arri'ed by the P ate 19. Near th'end of its single cylc le of operation, the shaft 2110f the press will drive the earn 211 to "a pdsiti'on Where the bell crank lever 2-19 will be r'dcked' c'ounter-cldckwis'e to release the b'l'dekin'g 1ever2'6l fr6m the abutment 250; thus to permit the s rings 205 and 206 to name the carriage fr'am'e ISEI babk into engagement with th' e surf'afce 'of the apro'r'r ass at the right 6f the rooves IQBtznd' I94;

p The press head 2'14 carries a tbbi supporting blbck 301, on which are mounted a series ort'odls w ich attafi S hddks3'6 and stay bands 35 th tfie ends of the brai'd c0verek1b0rd', andwhic'h attach terminals 34"06 the"ihdividualicbndfiet'ors' 31 32"an'd 33 Ass imybest be seen byreference' to Figs. 12-to17; inclusive; the tool siip'pbrting block 301 has" resiliently mdunted on it a; plate 302, which is-icarriedbyp'osts 3fl3'3fl3slid'abie in the tolsupporting bl'oek 301 and'fixe'd t6 th late 302: lhte'rpbs'e'd between shoulders 3t4' 3n'4* on trie blobk 3M 'an'd'th lttte's'aoz are dompres Sim-g sprin s 305"; which nbrmttiiym ''the pIat'e" 'stzv 'o the left, as'yitwtq'in Figs. 13 audit. rite p1 v e302 is provided with bumper pads 365', Whigzh willlenfgfa'g'e" the surface qr one of tiie plates n9 iri the p'ufic n' press pgsiti'on f-t e 15'p' srtti-ns and i'rttrie opratibrg pr the press will p'ress the plate n'sf ihWLrd1 until hpurqe s 291 (in the p1ate"|'| 9', wfiich'sun ouiiti the liner pin [81 engage theb'ase" of the'pociiet' 184 011 the framework" I831 he pnrigt ans", which are'weaker than; springs- [35; Will be compressedfirst and the 13001 suppbrtin'g bitk 301 wi11iri6v vvith' rspet'to' the" pltte 302" b'efbrithoVs the plate I191 The plate-"s02 carries three guide piste-$K 309; and 310 which cooperate with guide mem bers 3| I, 3l2an'(13l3 fdrrhed integrally with or" attached toi'the iflatzSM 'tb 'gui'de interconnected strips 3|'4;"3l5stnd 31Bcf s ho'o'k's 36-, terminals The cc'i'dperating surfaces ofth guidei members" 31]; 3-12; 31-3 and thiglii'de plates 308, 309 and 3] Oserve ItE)" direct the interconnected strips '3 I 4; CH5 ahd 3lfi"'to"th'e'place Where the S'-hooks; terniinails tind staiy" bands wilIbe attachedto' the: cordtge",l an& individual bonductors.-' Iri order to'ieed" the iiitercbnnectedstrips 314, 3I5 and 3l6 tb "p'bsitidnto be acted" upon by the press;

' feeding devices are provided for engagingand 32'? and 32B fer 'pivotally supporting cam levers The tam levers 329 and 3'3il'have camarm's 332 and -SEZ' adapte'd to' engage adjustablea'btitments mass f; respectively" each time-the tool suppertihig' biock 3!! 5 'islr'etraiztedto inoperative posi- 3'38; respectively The-feed levers earandmare pivotally mounted on the arms 335 and 336 and are urged to rock clockwise about pivot pins 339 and 346 by contractile springs 345 and 362 attached to the levers 331 and 338 and to the bell crank levers 329 and 333, respectively; The bell crank levers 329 and 336 are in turn urged to rock clockwise about their pins 321 and 328 by contractile springs 343 and 366, which are attached to'them and to the guide members 3l2 and 3I3, respectively. Adjustable abutment screws 365 and 356 serve to limit the movement of the bell crank levers 323 and 336 under the action of their respective springs and thus will limit-the amount of oscillation imparted to the bell crank levers by the cO-action of their respective springs and abutment posts 333 and 334.

When the tool supporting block 36! is moved to the left, as viewed in Figs. '13 and 14, the spring arrangement associated with the feed levers 331 and 338 will retract the springs to position to feed a new length of interconnected strips of terminals 3|5 and interconnected strips of stay bands 3E6 the next time the tool supporting block is retracted to the position shown in Figs. 13 and l l. It will be understood that the levers 331 and 338 engage surfaces of the interconnected strips associated with them to effect their feeding operation and that the feeding of the interconnected strips 3| 4 of S-hooks 36 is exactly the same as'feeding of the interconnected strips 3 I 6 of stay bands 35.

Mounted upon the tool supporting block 3!" is a retainer plate 355, which serves to hold three sets of tools 356, 351 and 358 adapted to operate upon the interconnected strip 3! of s-hooks, the interconnected strip 3! 5 of terminals and the interconnected strip 3! 6 of stay bands, respectively. These tools cooperate with three sets of tools 359, 366 and 36] held in place upon a tool bed 362 by a retainer plate 363 (Figs. 13 and 14) The tool bed 362 (Figs. 3 and 4) is mounted-upon the bearing member 136 and extends outwardly to properly position the tools carried by it at the punch press portion of the apparatus.

As shown most'clearly in Fig. 23, the set of tools 366 comprises two forming tools 364 and 365, six conductor shearing tools 366, 361, 368, 366, 316 and 31l,'and three strip shearing punches 312, 313 and 316. Th three strip shearing punches'312, 313 and 313 are mounted in a tool holding block 315, which cooperates with the forming tools 366 and 365 .to support the conductor shearing tools 366 to 31], inclusive. Each of the forming tools 364 and 365 is provided with three forming notches 316316 having a rounded bottom form'- ing surface and tapered side surfaces joining said rounded bottom surfaces, whereby, when partially formed terminals, having the strip from which they are formed bent to U-shape, engage the side surfaces, they will be directed around a conductor and then, upon being further pressedin the forming notches, will tightly engage the conductors.

The strip shearing punches 312, 313 and 316 cooperate with die apertures 386, 38Iand 382' (Fig. 17) formed in a die block 363, comprising a part of the set of tools 351. In addition to the die block 333, the set of tools 351 includes two forming tools 366 and 385 adapted to cooperate with the forming tools 364 and 365, respectively, the forming tools 384 and 335 each having a series of three notches 386386 formed in them which are in alignment with the forming notches 316-316 on the tools 364 and 365 and will engage the interconnected strip 3l5 of terminals 34 to form the conductor engaging portions of the ter-- minals around the conductors. The flat exposed surface of the die block 383 will cooperate with the shearing'tools 366 .to 3', inclusive, to form a backing for the terminalportions of the terminal members 34, against which the tools 366 to 31!, inclusive, will cut the individual conductors 3!, 32 and 33 at two places closely adjacent the portion of each terminal 34, which is wrapped around the conductor by cooperating forming tools. These sets of tools 351 will thus cooperate with the set of tools' 366 to complete the formation of the terminals 34 and to shear the individual conductors against the terminals after the terminals have been attached to the conductor.

The interconnected strip of S-hooks 3M which is fed to the punch press portion of the apparatus includes a strip 396, which serves to interconnect the S-hooks 36 in, the strip 3M and in the operation of the apparatus, the S-hooks are sheared from this strip; After the plate 362 has been moved to position to engage its bumper pads 366 with the plate I19, the plate 362 will be held stationary momentarily and the springs 365 will be compressed, whereby the sets of tools 356, 351 and 358 will move relative to the plate 362. As the set of, tools 356 moves relative to the plate 302, the upper edge 39| of the set of tools 356 will cooperate with a slot 332 in the plate 362'to' shear an s-hook from the interconnected strip 3M. The surface 39I is formed on a tool 363,

having a notch s94 therein into which the. de-.

- the S-hook into the notch 361.

cordage 36.

The sets of tools 358 and 36! are similar to the sets of tools 356 and 359 and cooperate to attach astay band 35 to the cordage 30 each time the punch press is operated. The interconnected strip of stay bands 3l6 is interconnected [by a web .4 l6, which is sheared in the operation ofthe punch press just prior to the engagement of the stay band with the cordage 36 and the set, of tools 358 includes a'shearing tool 4| I which cooperates with a slot H2 in the plate 362 to shear the web 6 Ill. The set of tools 356 also includes a forming notch 613, which engages the base of a stay band and cooperates with a forming notch M4 in the set of tools 36L which is formed similarly to the forming tool 396 to attach the stay band to the As the punch press-operates repeatedly, the strip 3M, from whichthe S-hooks 36 are sheared, will be fed out of the plate 362 through a passageway 4l5 formed in the plate. Similarly, the pieces of web M0 sheared from the strip 3l6 will be pushed through a passageway 4 l 6, also formed in plate 362. r

- In. the operation of the apparatus as illustrated most clearly in Figs. 21 and 22, cordage 36 may be directed from a suitable supply thereof and threaded through the guide funnel66 and thence around the drum 64 and through the clamping device and guide tube 82 to position adjacent the turret .62. Thereafter, the cordage may-be directed over the roller 128 and between the clamping members I50 and, l5l, which may be released manually against the action of the actuating spring M1 for the clamping member I56.

The.,-cordage-may themhedirected aroundthe pu11eys:.|25,-. I26 Ill-andl28v-andintowpositionbetween the cooperating clamping ;members,- I51- and -l fifizto prepare-the apparatus for operation. If-no cordagehad previously Y-been; positionedcinthe: apparatus, the.;cor.dage;- may be positioned only; on: the. firstplate I i9: and clamped between the: first nset. of; clamping members I 5-,? I and I6!) with the looped-out conductors-t as-shown in the left-hand position of the plate I19 in Fig 21:- Thereupon; power may besupplied; to= thepunch press: motor-85 and to the main drive; motor; 41 todrivethe turret 42 :andrdistributor; mechanism- 48.-,. Asasooneas powerv is supplie bto theamotorsfl; the; distributor bracket: to will; be: reciprocated along; thelength. of the distributor sh-a-fti 55;:in; timed: relation to; the rotation of the; turret 42-; As the distributor bracket '60 :travels up. and down; it=will be'guided by the cam-track 9'! and;wi11 distribut the: cordage over; thepulleys I 25; l 26; i2] and-l28wduringtherotation:ofzthe turret. As soon as the cordage 30 being fed-wbythe'dist'r-ilbe utor mechanism 48: has been---positioned ioetween the:=cl amping member-s11 50 1 and l 51h and- I 5-1 and l 68, the-clampinglmenrberswill engage-andrclamp the. cordrage laid betweenthem b-y the guide'tube 8'2 2 The distribution oficordageiover. the pulleys Will: continue during thezrotation of; the turret 42- and; willithusi distribute the: cordage in: :position to bewlbrokenqby the mechanismwcarriedzby the turret;

Each: time the looped conductors 13!; $2 and; 33;; looped out through thegbraidec]: covering ;on= the'cordage 30;: engagev the? switch lever-58;:v the clamp will be; operated: togriothe cordage and, if necessary; the, pulley I2-ijwill moverupe wardly-slightly; thus' to.,comp.ensate for: difierencesin the, spacing between thepoints-where the conductors are. thrown: out through thebraidcovered;;cordage and; in this manner; the lo'opedicone ductors'willi beproperly positioned to attached tothe pins. carried by the-plates I19; after the braided covering-on the cordage has-been broken Afitera plate H9; with-cordagepositioned onsit'; has: travelled vapproximately 90? around the: tors.- ret;.it will, arrivei'at the station, where the-braided covering on the: cordage is brokenpand-the.plate- H'9"Wi11 be moved downwardly;- by" the coactionofthecam;roller 3535- with cam: traacls i536? and since; at this 1 position, the clamp: members; 859'; andlfiii are in their operated, position, the covereing on the cordage. will be broken and" the indi vidual conductors may be. positioned on theaplfite |19,;as illustrated,in Fig, 12; whereythezspringe pressed 'pins 2 i8, 2 l 9--and,:22il:' wi-lliholdithe; concductors- 3|; 32'and 33; iniengagementzwithg the; pinsZM; 215, 216 andzi'liandwheretthecom ductors will be properly aligned-to have terminalsattached totthemi The continued rotationaofizthe turret- 42 will carry theplate H9 into thegpunch press station of the apparatus'where, as described in: the. detailed description oi the various) parts=,-. the S-hooks -36; terminals andwstay handset? willbe attached to the cordage and individual; conductors and the individual conductors willgbe sheared against the surfaces of-theyterminals34. After the S-hooks, stay bandsand terminals are; thus attached to the cordage; the plate H18, which had beendn the punch prese will be carried out of the :punch press to. a position where the-corn pletedcordsmaybe removed from the'pull-eys I26; I21 and I28. The punch presshaving severed the conductors, the cords-will hang loosely; and will not engagethe, pulley l 25.

Itwill-be understood that When aplate- M9:-

14* anditscarriage Y frame; I 99:, arrive in the -punch press portion of the apparatus-its, movement with the turret 42: will; be blocked by; the blocking lever 26 l and the carriage frame i ilfl will beheld in-the punch press'until the blocking-lever 25! is moved outof. the path-of' the carriage framenear the end of. the, cycle of operation-ofethe punch press; It will also be understood that, as describedin detail hereinbef-ore, theoperation ofthe punch presswill'bein-itiated by the abutment member 260(on thecarriage' frame-E96; closing switch264 to energize the punch presstripping solenoid 266.

What is claimedis:

1; Apparatus formaking; electrical cordsyirom continuous; cordage'includinga a plurality of conductors with-a icontinuouscovering thereover and having the conductorsthrown-through and 6X, tending out of the covering'at-spaced points along the cordage; which comprises asupport', means for rotating the support, a plurality of carriers mounted on the supportzqfor supporting successive lengths of'suchcordagewith the points w-here the conductorsextend from the covering adjacent to; the; carriers, means associated with the carriersand support and operative when the carriers reach-aupredetermined position for successively separating the covering into individual: cord lengths at thepoints Where the conductors .e-X- tendxtherefrom, thereby locating the uncovered conductors. adjacentto each carriageasthe sup port rotates;- mea-ns associated-With each carrier for engagin separating andrpositioning the-uncovered conductors with-respect to each other; means at a fixed station adjacent;to--the-support for cooperatingwith thecarriers to apply metallic members tothepQrdageandtO the conductors so located,- andj means for coordinating; the, ope erations of the metallic member-ap1Jlying:1neans and the conductor-engagir1g means with the movement of the support;

2; Apparatus formaking electricalco-rds: from continuous-cordage including a; plurality of, cone ductors with a continuous coveringrthereover and having the conductors thrown throughv and extending out of the covering atspaced points-along thecordage, which comprises a support; means for; rotating; the support; a; plurality of carriers movably-mounted on the support, guide means on the support and carriers over which successive lengths ofsuch cordagemay bepassedto position: the cordage in. apredetermined pattern with the point Where the-conductors extendirom the covering adjacent tov the carriers, means operativewhen the carriers reach a predetermined position for successively separating the covering into individual cord-lengths atthe points where the conductors extend therefrom, means tfor temp orarily holding the carriers stationary while the support moves, means at a fixed station adjacent to the support and cooperating with the stationary carriers for applying metallic members: to the cordagerandfor applyingterminals to the-uncovr ered conductors and cuttingthem, and-means for coordinating the operation .ofthe last-mentioned means with the movement ofthe support.

3. An apparatus; for; forming connectedindividual electrical cords from continuous conductor covered cordage which hasits conductors thrown through and-out of the covering at spaced points along,- the cordage, theccvering being continuous at such points, comprising means for gripping the cordage at opposite sides of; one-oi saidpoints-and means intermediate thereof for,

applyingtension to the cordage topulleapart the covering; atsaid point where the concluctor ex 15 tend outwardly, thereby separating the covering into individual cord lengths.

4. Apparatus for severing the covering between individual electrical cords in continuous cordage including a plurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage, which comprises a cordage-supporting carrier for supporting successive lengths of such cordage, means for successively gripping the cordage at opposite sides of the points where the conductors extend outwardly, and means for successively applying tension to those portions of the cordage intermediate the gripping means after the gripping means have gripped the cordage to pull apart the covering at said points. 7

5. Apparatus for severing the covering between individual electrical cords incontinuous cordage including a plurality of conductors with a continuous covering'thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage,

' which comprises a support, a plate movably mounted on the support, a pair of clamps mounted on the support adjacent-to said plate, a cordageengaging member carried by the plate, the clamps and the cordage-engaging member being so arranged that the cordage may be passed thereover with the cordage passing through one of the clamps, over the cordage-engaging member and through the other clamp, means for closing the clamps, and means for moving the plate with respect to the clamps after said clamps have been closed, whereby the cordage-engaging member applies tension to that portion of the cordage held between the clamps and breaks the covering thereon.

6, Apparatus for severing the covering between individual electrical cords in continuous conductor covered cordage having conductors extending through the covering at intervals along the cordage, which comprises a support, a plate movably mounted on the support, a pair of clamps mounted on the support, each clamp being adjacent to and on opposite sides of said plate, a plurality of pulleys mounted on the support, a pulley mounted on the plate, the pulleys on the support and on the plate being so arranged that the cordage may be festooned thereover with the cordage passing over a pulley on the support, through one of the clamps, over the plate pulley, through the other clamp and over another pulley on the support, means for closing each clamp at predetermined intervals, and means for moving the plate with respect to the clamps after said clamps have been closed, whereby the pulley carried by the plate applies tension to those portions of the cordage held between the clamps and breaks the covering thereon.

'7. Apparatus for severing the covering between individual electrical cords in continuous conductor covered cordage having conductors extending through the covering at intervals, which comprises a turret, means for rotating the turret, a, plurality of plates movably mounted on the turret, a plurality of pairs of clamps mounted on the turret, each pair of clamps being adjacent to a plate, a plurality of pulleys mounted on the turret, a pulley mounted on each plate, means for festooning the cordage over the pulleys on the turret and plates with the cordage adjacent to each plate passing through a clamp, over the plate pulley and through another clamp and with the portions of the conductors extending from the covering located at the plates, means for closing each pair of clamps at predetermined intervals, and means for moving each plate'with respect to the clamps associated therewith after said clamp have been closed, whereby the pulleys carried by the plates successively apply tension to those portions of the cordage held between the clamps and break the covering thereon at ghe points where the conductors extend there rom.

8.- Apparatus for forming connected individual electrical cords from continuous cordage including a plurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage, which comprise a turret, means for rotating the turret; a plurality of plates movably mounted on the turret, a plurality of pairs of clamps mounted on the turret, each pair of clamps being adjacent to a plate, a plurality of pulleys mounted on the turret, a pulley mounted on each plate, means at a fixed station movable to positions adjacent to the pulleys as they are advanced past said station for feeding and successively laying the cordage over each pulley, means for coordinating the movement of said last-named means with the movement of the turret, means for closing each pair of clamps at predetermined intervals, and means for moving each plate with respect to the clamps associated therewith after said clamps have been closed, whereby the pulleys carried by the plates successively apply tension to those portions of the cordage held between the clamps and break the covering thereon at the points where the conductors extend therefrom.

9. Apparatus 'for forming connected individual electrical cords from continuous cordage includin a plurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage, which comprises a turret, means for rotating the turret, a plurality of plates movably mounted on the turret, a plurality ofpairs of clamps mounted on the turret, each pair of clamps being adjacent to a plate, a plurality of pulleys mounted on the turret, a pulley mounted on each plate, the clamps and the several pulleys being so arranged that the cordage may be festooned thereover with the,

cordage adjacent to each plate passing over a pulley on the turret, through one of the adjacent clamps, over the plate pulley, through theother adjacent clamp and through another pulley on the turret and with each point where the conductors extend from the covering adjacent to a plate, means for closin each pair of clamps at predetermined intervals, and means for moving each plate with respect to the clamps associated therewith after said clamps have been closed, whereby the pulleys carried by the plates successively apply tension to those portions of the cordage held between the clamps and break the a the con-' gaging member mounted on each plate, the clamps and cordage-engaging members being so arranged that the cordage adjacent to each plate may be passed through one of the adjacent clamps, over the cordage-engaging member on the plate and over the other adjacent clamp with one of the points along the cordage where the conductors extend out of the covering adjacent to the plate, means for closing each pair of clamps at predetermined intervals, means formoving each plate with respect to the clamps associated therewith after the clamps have been closed, whereby the cordage-engaging members carried by the plate successively apply tension to those portions of the cordage held between the clamps, thereby breaking the covering into individual cord lengths and locating the uncovered conductors adjacent to each plate as the turret rotates, means at a fixed station adjacent to said turret for cooperating with each plate for applying terminals to the conductors so located, and means for coordinating the movements of said terminal-applying means and said turret.

11. Apparatus for forming electrical cords from continuous cordage including aplurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage, which comprises a turret, means for rotating the turret, a plurality of plates movably mounted on the turret, a plurality of pairs of clamps mounted on the turret, each pair of clamps being adjacent to a plate, a cordageengaging member mounted on each plate, the clamps and cordage-engaging members being so arranged that the cordage adjacent to each plate may be passed through one of the adjacent clamps, over the cordage-engaging member on the plate and over the other adjacent clamp with one of the points along the cordage where the conductors extend out of the covering adjacent to the plate, means for closing each pair of clamps at predetermined intervals, means for moving each plate with respect to the clamps associated therewith after the clamps have been closed, whereby the cordage-engaging member carried by the plates successively apply tension to those portions of the cordage held between the clamps, thereby breaking the covering into individual cord lengths and locating the uncovered conductors adjacent to each plate as the turret rotates, means on each said plate for engaging, separating and positioning the uncovered conductors with respect to each other, means at a station adjacent to said turret for cooperating with each plate for applying terminals to the conductors so located, and means for coordinating the movements of said terminal-applying means, said conductor-engaging means and said turret.

12. Apparatus for forming electrical cords from continuous cordage including a plurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage, which comprises a turret, means for rotating the turret, a plurality of plates movably mounted on the turret, a plurality of pairs of clamps mounted on the turret, each pair of clamps being adjacent to a plate, a plurality of pulleys mounted on the turret, a pulley mounted on each plate, means for festooning the cordage over the pulleys on the turret and plates with the cordage adjacent to each plate passing through a clamp, over a plate pulley and through 18 another clamp and with the portions of the conductors extending from the covering located at the plates, means for closing each pair of clamps at predetermined. intervals, means for moving .each plate with respect to the clamps associated therewith after said clamps have been closed, whereby the pulleys carried by the plates successively apply tension to those portions of the cordage held between the clamps and break the covering thereon at the point where the conductors extend therefrom, means for temporarily holding the plates stationary while the turret moves, means cooperating with the plates while they are stationary for applying terminals to the uncovered conductors and cutting them, and means for coordinating the movements of said terminal-applying means and said turret.

13. Apparatus for forming electrical connecting cords from covered cordage which has conductors thrown out through its covering at intervals, which comprises a rotatable turret, means for rotating the turret, a plurality of plates movably mounted on the turret for supporting successive lengths of the cordage, a plurality of cooperating means on the plates and turret for engaging the cordage, means at a fixed station movable to positions adjacent to the cordage-engaging means as they are carried past said station for feeding and successively laying the cordage over each cordage-engaging means, means for coordinating the operation of the cordage-feeding means with the movement of the turret so that the cordagefeeding means places the points along the cordage where the conductors extend from the coverin adjacent to the plates with each of said points intermediate a cordage-engaging means on the turret and a cordage-engaging means on a plate, means for moving the plates with respect to said turret to apply tension to those portions of the cordage between the cordage-engaging means and thereby break the covering on the cordage at said points, means for temporarily holding the successive plates stationary while the turret moves, means at a fixed station adjacent to the turret for cooperating with the stationary plates for applying terminals to the uncovered conductors and cutting them, and means for coordinating the operation of the last-mentioned means with the movement of the turret.

14. Apparatus for forming connected individual electrical cords from continuous cordage including a plurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points alongthe cordage, which comprises a support for supporting successive lengths of such cordage, a plurality of sets of gripping means on the support, each set of grippin means being positioned to grip the cordage at opposite sides of one of the points where the conductors extend out of the covering, and means adjacent to each set of gripping means and intermediate thereof for applying tension to the cordage to pull apart the covering at one of said points.

15. Apparatus for forming connected individual electrical cords from continuous cordage including a plurality of conductors with a continuous covering thereover and having the conductors thrown through and extending out of the covering at spaced points along the cordage, which comprises a support for supporting successive lengths of such cordage, means for moving the support, a plurality of sets of gripping means on the support, each set of gripping means being 

